Emergence of the M phenotype of erythromycin-resistant pneumococci in South Africa.

Erythromycin-resistant pneumococci have been isolated in South Africa since 1978; however, from 1987 to 1996, resistance to macrolides was only detected in 270 (2.7%) of 9,868 blood or cerebrospinal fluid (CSF) pneumococcal isolates, most of which were obtained from the public sector. In South Africa, macrolide use in the public sector is estimated at 56% of that in the private sector. Most erythromycin-resistant strains (89%) exhibited resistance to erythromycin and clindamycin (macrolide-lincosamide-streptogramin B phenotype). In the United States, most erythromycin-resistant pneumococci exhibit the newly described M phenotype (resistance to erythromycin alone), associated with the mefE gene. The M phenotype in South Africa increased significantly in the last 10 years, from 1 of 5,115 to 28 of 4,735 of blood and CSF isolates received from 1987 to 1991 compared with 1992 to 1996 (p = 5 x 10(-7)). These data suggest that, although macrolide resistance in pneumococci remains low in the public sector, the mefE gene is rapidly emerging in South Africa.

Erythromycin-resistant pneumococci have been isolated in South Africa since 1978; however, from 1987 to 1996, resistance to macrolides was only detected in 270 (2.7%) of 9,868 blood or cerebrospinal fluid (CSF) pneumococcal isolates, most of which were obtained from the public sector.In South Africa, macrolide use in the public sector is estimated at 56% of that in the private sector.Most erythromycin-resistant strains (89%) exhibited resistance to erythromycin and clindamycin (macrolide-lincosamidestreptogramin B phenotype).In the United States, most erythromycin-resistant pneumococci exhibit the newly described M phenotype (resistance to erythromycin alone), associated with the mefE gene.The M phenotype in South Africa increased significantly in the last 10 years, from 1 of 5,115 to 28 of 4,735 of blood and CSF isolates received from 1987 to 1991 compared with 1992 to 1996 (p = 5x10 -7 ).These data suggest that, although macrolide resistance in pneumococci remains low in the public sector, the mefE gene is rapidly emerging in South Africa.1987 1988 1989 1990 1991 1992 1993 1994 1995 1996

MLS Phenotype
M Phenotype blood and CSF isolates-from 1 of 5,115 isolates to 28 of 4,753 isolates (p = 5x10 -7 , odds ratio [OR] 30.All 78 MLS isolates hybridized with the ermAM probe or produced a 616-bp-amplification product during polymerase chain reaction (PCR) amplification using the ermAM-specific primers. 1  The 12 M isolates tested contained the mefE gene as shown by a 348bp-amplification product when amplified using primers specific for mefE.There were no erythromycin-resistant isolates that contained neither the ermAM nor the mefE gene.
Erythromycin-resistant strains were serotyped by using the quellung reaction and antisera from the Staten Seruminstitut, Copenhagen, Denmark.Over the 10 years, the five most common serotypes and groups among the erythromycin-resistant isolates in decreasing order of frequency were serotype 14, serogroups 6, 19, 23, and serotype 1 (Table 2).Serotype 1 erythromycin-resistant pneumococci appeared only after 1992; serotype 14 was the most common in MLS isolates; serogroup 23 was the most common serogroup in M isolates (Table 2).Serotypes 14 and serogroups 6, 23, and 19 are the most common serotypes and groups isolated from children with serious infections (13,14).Of the 157 isolates from patients whose age was supplied, 98 (62%) were obtained from children (≤12 years).There was a trend that was not significant toward more macrolide resistance in children than adults (OR 1.17 [95% CI 0.98-1.39]).This trend may have been significant if age data had been supplied with all the isolates received.The proportion of  1 DNA was extracted from pneumococcal isolates by using a lysis solution consisting of 0.1% sodium deoxycholate as described in (11), except that we used plate rather than broth cultures.Seventy-eight MLS strains were probed for the ermAM gene by using dot blots.The probe (supplied by P. Courvalin, Pasteur Institute, Paris, France) (Escherichia coli JM83/pUC19 560bp Ssp1 intragenic fragment of ermB) was labeled with digoxygenin by using random primed labeling (DIG DNA Labeling and Detection Kit; Boeringer, Mannheim, Germany).Hybridization and detection were performed following manufacturer's instructions (DIG DNA Labeling and Detection Kit; Boeringer, Mannheim, Germany).PCR was also used to detect ermAM in 30 strains according to standard conditions, with an annealing temperature of 58°C.We used the following primers: forward primer, 5'-CGAGTGAAAAAGTACTCAACC, reverse primer, 5'-GGCGTGTTTCATTGCTTGATG).
Published primers for the mefE gene (5'-AGTATCATTAATCACTAGTGC, and 5'-TTCTTCTGGTACTAAAAGTGG) (12) were used to detect mefE through PCR amplification in 13 M strains.Amplification was performed in a Perkin Elmer Cetus DNA Thermal Cycler under standard reaction conditions, with an annealing temperature of 56 o C.

Dispatches
pediatric isolates did not change significantly over the 10-year period (63% during 1987 to 1991 and 62% the 1992 to 1996 period).
Approximately half of all the macrolideresistant isolates were also either intermediate or fully resistant to penicillin (60 of the 128 isolates from the 1987 to 1991 period, and 72 of the 142 isolates from the 1992 to 1996 period).There was a trend (not significant) toward greater resistance to penicillin in MLS strains.Of the 78 strains with MICs available, 38 (49%) were fully resistant (MIC ≥ 2 µg/ml) to penicillin, while the rest showed intermediate resistance (1 µg ≤ MIC ≤ 0.12 µg).Previous data have indicated that penicillin-intermediate resistance is far more common in South Africa than full resistance to penicillin (15).In 1992, Friedland and Klugman (15) reported that only 3 of 35 penicillin-resistant strains showed high-level resistance.
Coresistance to penicillin limits the use of most macrolides as treatment of penicillin-resistant pneumococcal infections.New semisynthetic macrolides such as the ketolide RU 64004 ( 16) are being developed, however, that do not show crossresistance to penicillin or to erythromycin.
Compared with total erythromycin resistance (middle ear fluid, blood, and CSF) in Europe (17)(18)(19), the United Kingdom (18), and the United States (19,21,22), the overall prevalence of macrolide resistance is low.In Europe erythromycin resistance varies by country.In Slovakia, almost all pneumococcal isolates are resistant (17), whereas in Portugal only 0.6% of isolates are resistant and the proportion appears to be declining (23).In the United Kingdom, erythromycin resistance increased from 3.3% to 8.6% between 1989 and 1992 in England and Wales (20).In the United States, 10% of pneumococcal isolates appear to be erythromycin resistant (21).Most isolates received by SAIMR are from the public sector, where macrolides are not normally prescribed for pneumococcal infections.Only 4 of the 128 erythromycinresistant isolates from 1987 to 1991 and 14 of the 142 erythromycin-resistant isolates from 1992 to 1996 were from the private sector.Resistance data from the private sector may show much higher levels of macrolide resistance, a contention supported by previous South African resistance data (1986), where the carriage rates of multiresistant pneumococci were 17.7% in children from more affluent communities and 0% in children from less affluent areas (24).MIC data were available for 15 of the 20 multiresistant isolates, and all 15 were fully resistant to both erythromycin and clindamycin (24).
Before the M phenotype was observed, erythromycin resistance was assumed to indicate cross-resistance to lincosamides and streptogramin B antibiotics in the pneumococcus.The increase in the incidence of M phenotype may warrant investigation into the use of these antibiotics for the treatment of pneumococcal infections.Sutcliffe et al. (7) suggested that clindamycin be considered for the treatment of bacteremia and middle ear and sinus infections caused by Streptococcus pneumoniae.Treatment with clindamycin is feasible only if infection with gram-negative pathogens has been excluded and if the S. pneumoniae phenotype is known because the strain may show MLS resistance and studies indicate that many penicillin-resistant strains are also clindamycin-resistant (16,25).Visalli and colleagues (25) found that clindamycin concentrations of only 0.06 µg/ml were required to inhibit 90% of penicillin-susceptible strains when grown in air, while clindamycin concentrations of >64 µg/ml were required to inhibit 90% of penicillin-intermediate and -resistant strains.
Studies of streptogramin use against pneumococci show some promise.The streptogramin RP 59500, a mixture of type A streptogramin, dalfopristin, and type B streptogramin quinupristin, is active against pneumococci regardless of their susceptibilities to penicillin or erythromycin (26,27).In contrast to erythromycin, RP 59500 is rapidly bactericidal (26).Clinical and bacteriologic failure has, however, already been reported using pristinamycin (28), an oral streptogramin combination from which RP 59500 was derived.
The M phenotype is thus relatively new in South African pneumococci but is emerging as an important factor in erythromycin-resistant

Dispatches
pneumococci.Although the low overall rate of resistance makes the use of streptogramins and lincosamides potentially more feasible for the treatment of pneumococcal infections, coresistance to penicillin and the present high rate of MLS resistance necessitate antibiotic susceptibility testing before these antibiotics are administered.

Figure .
Figure.Number of erythromycin-resistant blood and cerebrospinal fluid isolates of pneumococci.
13, 95% confidence interval [CI] 4.1-221) (Table 1; Figure).Data on oral macrolides in the public sector (from the Division of Medical Schemes Supplies and Pharmaceutical Services of the Department of Health) show that 16.4 million defined daily doses (ddd) of macrolides were purchased for the estimated 30.3 million persons who obtain health care from the public sector (0.54 ddd per capita).